Neuropathological insights from SHANK3 mutant animal models

Abstract

SHANK3 is a protein primarily found in the postsynaptic density (PSD) of excitatory synapses in the brain. Heterozygous mutations in the shank3 gene have been linked to autism spectrum disorder (ASD) and intellectual disability. There are various animal models carrying mutant SHANK3 that have provided valuable insights into the pathogenesis of ASD. In this review, we will discuss these animal models, with a specific focus on the neuropathology observed in shank3 mouse and monkey models. These models are particularly important as they share closer similarities to humans and are capable of more accurately recapitulating the neuropathological features observed in individuals with ASD. Mice with mutations in the shank3 gene exhibit deficits in social behavior, communication, and repetitive behaviors, which are core features of ASD and support the link between SHANK3 and ASD. However, studies of monkey models with SHANK3 targeting by CRISPR/Cas9 have demonstrated that, unlike mice with completely knocked-out shank3 genes, the monkey model with complete deletion of SHANK3 displays a reduction in the number of neuronal cells. This review discusses the species-specific neuropathology in SHANK3/shank3 knockout mice and monkeys. The differences in neuropathology in SHANK3/shank3 mutant mouse and monkey models suggest that non-human primate models are highly valuable for investigating the mechanism of neurodegeneration that may selectively occur in primate brains.